Application of software solutions for modeling and analysis of parameters of belt drive in engineering

Тимербаев, Н. Ф.; Sadrtdinov, A.; Просвирников, Д. Б.; Фомин, А. А.; Stepanov, V.V.

doi:10.1088/1755-1315/87/8/082047

Cited by 24 publications

(8 citation statements)

References 17 publications

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“…A comparative analysis was made of experimental data on the performance of a standard gasifier and a gasifier with a plasma heat source [38][39][40]. Under the condition of operation in the autothermal mode and the same temperature, the performance of the gasifier with a plasma heat source is about 1.8 times higher.…”

Section: Resultsmentioning

confidence: 99%

Efficiency of biomass and solid waste energy processing based on the cogeneration plant with plasma heat source

et al. 2019

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The urgency of the use of low-grade organic fuels and wastes, in particular municipal solid (MSW), is due to recent developments in energy saving and energy efficiency. This directly relates to the direction of renewable energy, responsible for involving all wastes, such as MSW, in fuel energy balance to provide heat and electricity to decentralized power supply areas. This paper presents the process of hightemperature thermal decomposition of MSW in the steam-air medium of plasma under excessive pressure to generate electrical energy. The high enthalpy and great reactivity of the plasma gasifying agent makes it possible to carry out the process of thermal decomposition in the autothermal mode. The high-temperature mode and the use of plasma blast provides a high degree of conversion of waste into combustible components (CO, CH4, H2), the resulting gas mixture. The technological process significantly reduces the formation of potentially hazardous substances that affect the kinetics of the process. After generating electrical energy, the exhaust gases are subjected to complex purification from the products of combustion and cogeneration of residual thermal energy. In particular, purification from toxic nitrogen oxides (NOx) occurs, the formation of dioxins, furans and other dangerous derivatives of chloride compounds is prevented. Thermal energy, discharged at various sites of the plant, is almost completely used for the needs of the cogeneration plant and its units, which allows to achieve a total efficiency of at least 86%. The ability of the cogeneration plant to work on various types of solid waste gives a wide range of applications and operational capabilities.

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Section: Resultsmentioning

confidence: 99%

Efficiency of biomass and solid waste energy processing based on the cogeneration plant with plasma heat source

et al. 2019

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“…The second group includes models for the force calculation of structural elements of the transport system [16][17][18][19][20][21][22]. Of particular practical interest are the models that determine the conditions for the destruction of the conveyor belt [6,8,[23][24][25][26][27][28][29]. This allows you to determine the design parameters of the conveyor belt and the dynamic load modes, which ensure the stable operation of the transport system.…”

Section: Conveyor Type Production Line Modelmentioning

confidence: 99%

“…Combining the system of equations (20), (21) with the boundary (24) and initial (25), (26) conditions, we obtain a two-moment model of the transport system that allows us to study dynamic stresses in the conveyor belt depending on changes in flow parameters [ ] )…”

Section: Eejp 1 (2020)mentioning

confidence: 99%

Hydrodynamic Model of Transport System

Pihnastyi

Khodusov

2020

EEJP

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A hydrodynamic model of production systems with a flow method of organizing production is considered. The basic macroparameters of the state of the production flow line and the relationship between them are determined. The choice of a lot of moment approximation for modelling the production line is justified. It is shown that the conveyor-type flow line is a complex dynamic system with distributed parameters. The boundary value problem is formulated for the longitudinal vibrations of the conveyor belt when the material moves along the transportation route. It is assumed that there is no sliding of material along the conveyor belt, and the deformation that occurs in the conveyor belt is proportional to the applied force (Hooke's elastic deformation model). The significant effect of the uneven distribution of the material along the transportation route on the propagation velocity of dynamic stresses in the conveyor belt is shown. When constructing the boundary and initial conditions, the recommendations of DIN 22101: 2002-08 were used. The mechanism of the occurrence of longitudinal vibrations of the conveyor belt when the material moves along the transportation route is investigated. The main parameters of the model that cause dynamic stresses are determined. It is shown that dynamic stresses are formed as a result of a superposition of stresses in the direct and reflected waves. Analytical expressions are written that make it possible to calculate the magnitude of dynamic stresses in a conveyor belt and determine the conditions for the occurrence of destruction of the conveyor belt. The characteristic phases of the initial movement of the material along the technological route are considered. The process of the emergence of dynamic stresses with the constant and variable acceleration of the conveyor belt is investigated. The dynamics of stress distribution along the transportation route is presented. It is shown that the value of dynamic stresses can exceed the maximum permissible value, which leads to the destruction of the conveyor belt or structural elements. The transition period is estimated, which is required to ensure a trouble-free mode of transport operation during acceleration or braking of the conveyor belt. The use of dimensionless parameters allows us to formulate criteria for the similarity of conveyor systems.

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“…The analysis of the factors of the main influence on the quality of the composite expresses a number of characteristics combined by the presence of components' bond which exponents are no worse than those of the interacting elements. Accordingly, it is determined that the process of obtaining wood composites is based on the mixing of multipolar components: polar wood particles and a nonpolar polymer matrix [6][7][8]. A known method of increasing the adhesion between components is the introduction into the formulation of special bonding additives, which enhance the bonding of the material components.…”

Section: Analysis Of Composite Materialsmentioning

confidence: 99%

Composite Railroad Ties Obtained by the Energy Efficient Recycle of Wooden Railroad Ties

Stepanov

Тимербаев

2018

SSP

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The article presents the result of research in the field of processing wooden railroad ties and thermoplastic polymer household waste with obtaining composite railroad ties under conditions of energy efficiency of technological processes. The wood of the used wooden ties contains a significant proportion of chemical compounds based on creosote. As a result of the thermal and mechanical action, the creosote compounds in the wood form hydrophobic surfaces, thereby fulfilling the function of the bonding additives. Under the above-mentioned conditions, hydrogen bonds are formed between the components of the wood composite, that, in its turn, allows achieving the task of creating a functional composite, which varies in the compound of elements and the modes of production processes. Experimental studies were held on the nature of justification and correction of theoretical studies. The experimental stand of composite production is realized on the principle of energy efficient cooling cycles of the obtained composite with heat transfer for heating the initial components. The obtained results of experimental studies exceed the regulation values by every measure. The comparison justifies the quality of the experimental samples obtained with respect to these values.

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Application of software solutions for modeling and analysis of parameters of belt drive in engineering

Cited by 24 publications

References 17 publications

Efficiency of biomass and solid waste energy processing based on the cogeneration plant with plasma heat source

Efficiency of biomass and solid waste energy processing based on the cogeneration plant with plasma heat source

Hydrodynamic Model of Transport System

Composite Railroad Ties Obtained by the Energy Efficient Recycle of Wooden Railroad Ties

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